An Exponential Lower Bound for the Runtime of the cGA on Jump Functions
April 17, 2019 ยท Declared Dead ยท ๐ the Proceedings of FOGA 2019
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Authors
Benjamin Doerr
arXiv ID
1904.08415
Category
cs.NE: Neural & Evolutionary
Cross-listed
cs.AI,
cs.DS
Citations
0
Venue
the Proceedings of FOGA 2019
Last Checked
4 months ago
Abstract
In the first runtime analysis of an estimation-of-distribution algorithm (EDA) on the multi-modal jump function class, Hasenรถhrl and Sutton (GECCO 2018) proved that the runtime of the compact genetic algorithm with suitable parameter choice on jump functions with high probability is at most polynomial (in the dimension) if the jump size is at most logarithmic (in the dimension), and is at most exponential in the jump size if the jump size is super-logarithmic. The exponential runtime guarantee was achieved with a hypothetical population size that is also exponential in the jump size. Consequently, this setting cannot lead to a better runtime. In this work, we show that any choice of the hypothetical population size leads to a runtime that, with high probability, is at least exponential in the jump size. This result might be the first non-trivial exponential lower bound for EDAs that holds for arbitrary parameter settings.
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